CN221346344U - Remove supplementary distributing device of liftable - Google Patents

Abstract

The application relates to the technical field of concrete pouring, in particular to a movable lifting auxiliary distributing device, which comprises a support, a lifting mechanism, a connecting mechanism and a distributing pipe, wherein the support is provided with a lifting mechanism; the connecting mechanism is used for connecting the distributing pipe and a conveying pipe of the concrete pump truck, and the distributing pipe is communicated with the conveying pipe of the concrete pump truck; the lifting mechanism comprises a lifting assembly and a lifting platform, the lifting assembly is arranged on the support, the lifting platform is arranged on one side, far away from the support, of the lifting assembly, and the material dividing pipe is arranged on the lifting platform; the lifting of the discharge hole of the distributing pipe is driven by the lifting component, and then the forming cavity is poured layer by layer, so that pouring at different positions of the forming cavity is realized, the uniformity of concrete pouring in the forming cavity is improved, holes in the concrete pouring process are reduced, and the forming quality of a reinforced building is improved.

Description

Remove supplementary distributing device of liftable

Technical Field

The application relates to the technical field of concrete pouring, in particular to a movable lifting auxiliary distributing device.

Background

In the building industry, the conditions that the service functions of the original building are changed or stress is not satisfied are frequently met, the original building needs to be reinforced, an outsourcing concrete reinforcement method is often adopted for construction in the building reinforcement process, and the outsourcing concrete reinforcement method is a reinforcement construction method for reinforcing and reinforcing an engineering original structure by adopting the same material, namely concrete and steel bars.

In the building reinforcement process, firstly, the edges and corners of the original concrete structure are knocked off, the surface of the concrete is roughened and grooved, and then residues and dust on the surface of the concrete are cleaned; secondly, measuring and paying off, repairing and welding the newly-added steel bars to the original structural steel bars according to the paying-off position, spraying an aqueous epoxy concrete interface agent, installing a molding template for pouring concrete, manually erecting a conveying pipe of a concrete pump truck at the position opposite to the pouring opening of the molding template by a worker after the molding template is installed, pouring concrete into a molding cavity of the molding template through the concrete pump truck, freely falling the concrete from top to bottom along the pouring opening of the molding template until the molding cavity of the molding template is filled with the concrete, and removing the molding template after the concrete is completely solidified.

Aiming at the related technology, an operator manually erects a concrete pump truck conveying pipe at the pouring opening position of the forming template, and the conveying pipe performs pouring of the reinforced building along a single position, so that the concrete in the forming cavity is unevenly distributed, and the forming quality of the reinforced building is affected.

Disclosure of utility model

In order to improve the molding quality of reinforced buildings, the application provides a movable lifting auxiliary distributing device.

The application provides a movable lifting auxiliary distributing device, which adopts the following technical scheme:

A movable lifting auxiliary material distribution device comprises a support, a lifting mechanism, a connecting mechanism and a material distribution pipe;

the connecting mechanism is used for connecting the distributing pipe and a conveying pipe of the concrete pump truck, and the distributing pipe is communicated with the conveying pipe of the concrete pump truck;

The lifting mechanism comprises a lifting assembly and a lifting platform, wherein the lifting assembly is installed on the support, the lifting platform is installed on one side, far away from the support, of the lifting assembly, and the material distributing pipe is installed on the lifting platform.

By adopting the technical scheme, in the building reinforcement process, a molding template for pouring concrete is installed, after the molding template is installed, a worker is connected with a conveying pipe of a concrete pump truck through a connecting mechanism, then a lifting assembly is adjusted, the lifting assembly drives a lifting platform to lift, the lifting platform drives the material dividing pipe to lift until a discharge hole of the material dividing pipe can extend into the bottom of a molding cavity, then the concrete pump truck is adjusted, concrete is injected into the bottom of the molding cavity through the concrete pump truck, and then the lifting assembly is gradually adjusted, so that the lifting platform moves downwards, and then the discharge hole of the material dividing pipe is driven to gradually lift, layer-by-layer pouring is carried out on the molding cavity until the concrete is completely filled in the molding cavity, and after the concrete is completely solidified, the molding template is removed; the designed movable lifting auxiliary distributing device drives the discharge port of the distributing pipe to lift through the lifting component, and then the forming cavity is poured layer by layer, pouring of different positions of the forming cavity is realized, the uniformity of concrete pouring in the forming cavity is improved, holes in the concrete pouring process are reduced, and the forming quality of the reinforced building is improved.

In a specific implementation mode, a plurality of discharging pipes are arranged at one end, far away from the conveying pipe, of the concrete pump truck, of the distributing pipe, and the plurality of discharging pipes are uniformly distributed along the axial direction of the distributing pipe.

Through adopting above-mentioned technical scheme, a plurality of material discharging pipes of design, through the connection of a plurality of material discharging pipes and single branch material pipe, be convenient for adopt the material discharging pipe that the diameter size is less to carry out concrete placement, and then be convenient for stretch into the less shaping chamber of size with material discharging pipe, realize the concrete placement of closely spaced shaping chamber, simultaneously, be convenient for pour in step a plurality of shaping chambers, improved the pouring efficiency of concrete, enlarge the application scope of removing liftable auxiliary distributing device.

In a specific implementation manner, the lifting assembly comprises a sliding block and a hydraulic cylinder, the support comprises a base part and a vertical part which are integrally arranged, a sliding groove for sliding the sliding block is formed in the vertical part, the sliding groove is formed in the height direction of the vertical part, and the lifting platform is fixedly connected with one end of the sliding block extending out of the sliding groove; the hydraulic cylinder is arranged on the base part and drives the sliding block to slide along the sliding groove.

By adopting the technical scheme, the hydraulic oil cylinder is regulated, the piston rod of the hydraulic oil cylinder drives the sliding block to slide along the sliding groove, the sliding block drives the lifting platform to synchronously move, and the lifting platform drives the material dividing pipe to move, so that the height adjustment of the material outlet of the material dividing pipe is realized, and further the layer-by-layer pouring of the cavity is realized; the lifting assembly is convenient to drive the lifting platform to move along the length direction of the sliding groove, so that the height adjustment of the discharge hole of the material distributing pipe is realized, and the forming quality of the reinforced building is improved.

In a specific implementation manner, the lifting assembly comprises a driving cylinder, a rotating shaft and a plurality of groups of adjusting pieces, wherein the groups of adjusting pieces are distributed along the length direction of the rotating shaft, the adjusting pieces comprise a first adjusting rod and a second adjusting rod, the first adjusting rod and the second adjusting rod are rotationally connected through the rotating shaft, the first adjusting rod and the second adjusting rod are symmetrically distributed about the rotating shaft, one end of the first adjusting rod is rotationally connected with the support, the other end of the first adjusting rod slides along the lifting platform, the horizontal projection of the first adjusting rod coincides with the sliding track of the first adjusting rod, one end of the second adjusting rod is rotationally connected with the lifting platform, the other end of the second adjusting rod slides along the support, and the horizontal projection of the second adjusting rod coincides with the sliding track of the second adjusting rod; the driving cylinder is arranged on the support, and drives the end part of the second adjusting rod to slide along the support.

By adopting the technical scheme, in the pouring process of the forming cavity, the driving cylinder is regulated, the piston rod of the driving cylinder drives the end part of the second adjusting rod to slide along the support, and as the first adjusting rod is rotationally connected with the second adjusting rod, the distance between the rotationally connected end of the first adjusting rod and the support and the sliding end of the second adjusting rod along the support is changed, so that the distance between the support and the lifting platform is regulated, the height of the lifting platform is regulated, the lifting platform drives the distributing pipe to move, the height of the discharging port of the distributing pipe is regulated, and the layer-by-layer pouring of the forming cavity is realized; the lifting assembly is convenient to adjust the distance between the lifting platform and the support, the height adjustment of the discharge hole of the material distribution pipe is realized, pouring of different positions of the cavity is further realized, the uniformity of concrete pouring in the forming cavity is improved, and the forming quality of a reinforced building is further improved.

In a specific implementation manner, the first adjusting rod is far away from the one end and is rotationally connected with a first roller, and a first sliding groove for sliding of the first roller is formed in the bottom wall of the lifting platform.

Through adopting above-mentioned technical scheme, the first gyro wheel of design, the tip of first regulation pole of being convenient for slides along first sliding tray, guarantees the motion path of first regulation pole, simultaneously, changes the sliding friction between first regulation pole and the support into rolling friction through first gyro wheel, reduces the wearing and tearing of first regulation pole tip, extension lifting unit's life.

In a specific implementation manner, a plurality of groups of first rollers are connected with a synchronous rotating shaft in a common mode, the first rollers are connected with the synchronous rotating shaft in a rotating mode, a piston rod of the driving cylinder is connected with the synchronous rotating shaft, and the axial direction of the piston rod of the driving cylinder is the same as the length direction of the first sliding groove.

Through adopting above-mentioned technical scheme, the synchronous pivot of design is convenient for a plurality of first regulation poles synchronous rotation, avoids a plurality of first regulation poles unable synchronous regulation, has realized the regulation of distance between lift platform and the support, and then realizes the position adjustment of dividing the material pipe.

In a specific implementation manner, one end of the second adjusting rod, which is far away from the lifting platform, is rotationally connected with a second roller, a second sliding groove for sliding the second roller is formed in the top wall of the support, the first sliding groove is parallel to the length direction of the second sliding groove, and the first sliding groove is located right above the second sliding groove.

Through adopting above-mentioned technical scheme, the second gyro wheel of design, the tip of the second regulation pole of being convenient for slides along the second sliding tray, guarantees the motion path of second regulation pole, simultaneously, changes the sliding friction between second regulation pole and the lift platform into rolling friction through the second gyro wheel, reduces the wearing and tearing of second regulation pole tip, extension lifting unit's life.

In a specific embodiment, the discharge pipe is configured as a wire hose.

Through adopting above-mentioned technical scheme, arrange the material pipe and set up to steel wire hose, be convenient for adjust the angle of bending of arranging the material pipe for arrange the material pipe and carry out the position control according to the framework of steel reinforcement in the shaping die cavity, simultaneously, guarantee that concrete is smoothly pour in the shaping die cavity.

In a specific embodiment, at least three casters are mounted to the bottom wall of the support.

Through adopting above-mentioned technical scheme, the universal castor of setting is convenient for remove the position control of liftable auxiliary material distribution device according to the reinforcement position of building.

In summary, the present application includes at least one of the following beneficial technical effects:

1. The designed movable lifting auxiliary distributing device drives the lifting of the discharge port of the distributing pipe through the lifting component, so that the forming cavity is poured layer by layer, pouring at different positions of the forming cavity is realized, the uniformity of concrete pouring in the forming cavity is improved, holes in the concrete pouring process are reduced, and the forming quality of a reinforced building is improved;

2. The lifting auxiliary distributing device is convenient for adjust the distance between lifting platform and the support through lifting component, realizes the altitude mixture control of dividing the material pipe discharge gate, and then realizes pouring in the different positions of die cavity, improves the homogeneity of concrete placement in the shaping die cavity, and then improves the shaping quality of reinforcement building.

Drawings

Fig. 1 is a schematic overall structure of a movable lifting auxiliary distributing device in embodiment 1.

Fig. 2 is a sectional view of a movable liftable auxiliary distributing device of embodiment 2.

Description of the drawings: 1. a support; 11. a base portion; 12. a vertical portion; 2. a lifting mechanism; 21. a lifting assembly, 211, a sliding block; 212. a slip groove; 213. a hydraulic cylinder; 214. a driving cylinder; 215. a rotating shaft; 216. an adjusting member; 2161. a first adjusting lever; 2162. a second adjusting lever; 2163. a first roller; 2164. a second roller; 2165. a first sliding groove; 2166. a second sliding groove; 2167. a synchronous rotating shaft; 22. a lifting platform; 3. a connecting mechanism; 4. a material dividing pipe; 5. a discharge pipe; 6. universal castor.

Detailed Description

The application is described in further detail below with reference to fig. 1-2.

The application discloses a movable lifting auxiliary distributing device.

Example 1:

Referring to fig. 1, the application relates to a movable lifting auxiliary distributing device, which comprises a support 1, a lifting mechanism 2, a connecting mechanism 3, a distributing pipe 4, a plurality of discharging pipes 5 and at least three universal casters 6; in the application, the number of the universal casters 6 can be three, can be four, can be five, and can realize stable support of the support 1, in the embodiment, the four universal casters 6 are arranged at the corner positions of the support 1, and the universal casters 6 are arranged on the bottom wall of the support 1 through bolts; the lifting mechanism 2 comprises a lifting assembly 21 and a lifting platform 22, wherein the lifting assembly 21 is arranged on the support 1, and the lifting platform 22 is arranged on one side, far away from the support 1, of the lifting assembly 21; the connecting mechanism 3 is used for connecting the distributing pipe 4 with a conveying pipe of the concrete pump truck, the distributing pipe 4 is communicated with the conveying pipe of the concrete pump truck, one end of the distributing pipe 4, which is far away from the conveying pipe of the concrete pump truck, is provided with a plurality of discharging pipes 5, the plurality of discharging pipes 5 are uniformly distributed along the length direction of the distributing pipe 4, and the discharging pipes 5 are arranged along the radial direction of the distributing pipe 4, in addition, a valve is additionally arranged on the discharging pipes 5 so as to control the discharging of the single discharging pipe 5; in the application, the material distributing pipe 4 is arranged on the lifting platform 22, and the material distributing pipe 4 is fixed on the lifting platform 22 through a clamp, so that the fixed connection between the material distributing pipe 4 and the lifting platform 22 is realized, and the material discharging pipe 5 is arranged as a steel wire hose in the embodiment, so that the material discharging pipe 5 is bent according to the distribution condition of the steel reinforcement framework in the forming cavity.

Referring to fig. 1, the connection mechanism 3 includes a connection joint through which the distribution pipe 4 is screwed with a delivery pipe of the concrete pump truck so as to facilitate communication between the distribution pipe 4 and the delivery pipe of the concrete pump truck; in addition, the distributing pipe 4 and the conveying pipe of the concrete pump truck can be connected through a flange or a clamp.

Referring to fig. 1, the lifting assembly 21 includes a sliding block 211 and a hydraulic cylinder 213, the support 1 includes a base portion 11 and a vertical portion 12 which are integrally arranged, in this embodiment, the base portion 11 is integrally connected with the vertical portion 12, the length direction of the vertical portion 12 is perpendicular to the top wall of the base portion 11, a sliding groove 212 for sliding the sliding block 211 is formed in the vertical portion 12, the sliding groove 212 is formed along the length direction of the vertical portion 12, the lifting platform 22 is fixedly connected with one end of the sliding block 211 extending out of the sliding groove 212, in this embodiment, the lifting platform 22 is welded with the sliding block 211, and the plane where the lifting platform 22 is located is parallel to the base portion 11; the hydraulic cylinder 213 is mounted on the base portion 11 by a bolt, and the hydraulic cylinder 213 drives the sliding block 211 to slide along the sliding groove 212, in this embodiment, a piston rod of the hydraulic cylinder 213 is parallel to a length direction of the sliding groove 212, and the piston rod of the hydraulic cylinder 213 is connected with the sliding block 211 by a bolt.

The implementation principle of the movable lifting auxiliary distributing device in the first embodiment of the application is as follows: in the building reinforcing process, a molding template of casting concrete is installed, after the molding template is installed, a hydraulic oil cylinder 213 is adjusted, a piston rod of the hydraulic oil cylinder 213 drives a sliding block 211 to slide along a sliding groove 212, the sliding block 211 drives a lifting platform 22 to synchronously move, the lifting platform 22 drives a material dividing pipe 4 to move, the material dividing pipe 4 drives a material discharging pipe 5 to move, and a material outlet of the material discharging pipe 5 can extend into the bottommost part of a molding cavity; then, the material discharging pipe 5 is extended into the bottommost part of the forming cavity, concrete is injected into the bottom of the forming cavity through a concrete pump truck, and then the hydraulic oil cylinder 213 is gradually adjusted, so that the lifting platform 22 moves downwards gradually, the lifting platform 22 drives the material outlet of the material distributing pipe 4 to ascend gradually, meanwhile, the forming cavity is poured layer by layer until the concrete is filled in the forming cavity of the forming template, and the forming template is removed after the concrete is completely solidified.

Example 2:

Referring to fig. 2, the difference between the present embodiment 2 and embodiment 1 is that the lifting assembly 21 includes a driving cylinder 214, a rotation shaft 215, and a plurality of groups of adjusting members 216, the groups of adjusting members 216 are uniformly distributed along the length direction of the rotation shaft 215, in this embodiment, the adjusting members 216 may be two groups, three groups or four groups, and only needs to realize stable lifting of the lifting platform 22, in this embodiment, the adjusting members 216 are two groups, and the two groups of adjusting members 216 are distributed along the length direction of the rotation shaft 215, so as to reduce the production cost, the two groups of adjusting members 216 are disposed near opposite sides of the lifting platform 22, and the two groups of adjusting members 216 are connected through the rotation shaft 215, and the two groups of adjusting members 216 are disposed near two ends of the rotation shaft 215.

Referring to fig. 2, the adjusting member 216 includes a first adjusting lever 2161, a first roller 2163, a second adjusting lever 2162, a second roller 2164 and two synchronous rotating shafts 2167, the first adjusting lever 2161 and the second adjusting lever 2162 are rotationally connected through the rotating shafts 215, the first adjusting lever 2161 and the second adjusting lever 2162 are symmetrically distributed about the rotating shafts 215, one end of the first adjusting lever 2161 is rotationally connected with the support 1, the other end is rotationally connected with the first roller 2163, a first sliding groove 2165 for sliding of the first roller 2163 is formed in the bottom wall of the lifting platform 22, and the horizontal projection of the first adjusting lever 2161 coincides with the first sliding groove 2165; one end of the second adjusting rod 2162 is rotationally connected with the lifting platform 22, the other end of the second adjusting rod 2162 is rotationally connected with the second roller 2164, a second sliding groove 2166 for sliding the second roller 2164 is formed in the top wall of the support 1, the horizontal projection of the second adjusting rod 2162 is overlapped with the second sliding groove 2166, the first sliding groove 2165 is parallel to the length direction of the second sliding groove 2166, and the first sliding groove 2165 is located right above the second sliding groove 2166; the two first rollers 2163 are rotatably connected with one of the synchronous rotating shafts 2167, the two second rollers 2164 are rotatably connected with the other synchronous rotating shaft 2167, and the two synchronous rotating shafts 2167 are arranged in parallel; the driving cylinder 214 is mounted on the support 1, in this embodiment, the driving cylinder 214 is fixed on the support 1 through a bolt, a piston rod of the driving cylinder 214 is connected with the synchronous rotating shaft 2167, and an axial direction of the piston rod of the driving cylinder 214 is parallel to a length direction of the first sliding groove 2165; in addition, in order to facilitate the synchronous rotation of the first adjusting rod 2161 and the second adjusting rod 2162, another driving cylinder 214 is additionally arranged on the bottom wall of the lifting platform 22, and a piston rod of the driving cylinder 214 is fixedly connected with another synchronous rotating shaft 2167.

The implementation principle of the movable lifting auxiliary distributing device in the second embodiment of the application is as follows: in the building reinforcing process, a forming template of pouring concrete is installed, after the forming template is installed, a driving cylinder 214 is adjusted, a piston rod of the driving cylinder 214 drives a synchronous rotating shaft 2167 to move, the synchronous rotating shaft 2167 drives a second roller 2164 to move, the second roller 2164 moves along a second sliding groove 2166, another driving cylinder 214 is adjusted, a piston rod of the other driving cylinder 214 drives the synchronous rotating shaft 2167 to move, the synchronous rotating shaft 2167 drives a first roller 2163 to move, the first roller 2163 moves along a first sliding groove 2165, the distance between a lifting platform 22 and a support 1 is increased, the lifting platform 22 drives a distributing pipe 4 to move, the distributing pipe 4 drives a discharging pipe 5 to move, and a discharging hole of the discharging pipe 5 can extend into the bottommost part of a forming cavity; then, the material discharging pipe 5 is extended into the bottommost part of the forming cavity, concrete is injected into the bottom of the forming cavity through a concrete pump truck, the driving cylinder 214 is gradually adjusted, the lifting platform 22 moves downwards gradually, the lifting platform 22 drives the material outlet of the material distributing pipe 4 to ascend gradually, meanwhile, the forming cavity is poured layer by layer until the concrete is filled in the forming cavity of the forming template, and the forming template is removed after the concrete is completely solidified.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (9)

1. The utility model provides a remove supplementary distributing device of liftable which characterized in that: comprises a support (1), a lifting mechanism (2), a connecting mechanism (3) and a material distributing pipe (4);

The connecting mechanism (3) is used for connecting the material dividing pipe (4) and a conveying pipe of the concrete pump truck, and the material dividing pipe (4) is communicated with the conveying pipe of the concrete pump truck;

the lifting mechanism (2) comprises a lifting assembly (21) and a lifting platform (22), the lifting assembly (21) is installed on the support (1), the lifting platform (22) is installed on one side, away from the support (1), of the lifting assembly (21), and the material distributing pipe (4) is installed on the lifting platform (22).

2. A mobile lifting auxiliary distribution device according to claim 1, characterized in that: a plurality of discharging pipes (5) are arranged at one end, far away from a conveying pipe of the concrete pump truck, of the distributing pipe (4), and the discharging pipes (5) are uniformly distributed along the axial direction of the distributing pipe (4).

3. A mobile lifting auxiliary distribution device according to claim 1, characterized in that: the lifting assembly (21) comprises a sliding block (211) and a hydraulic cylinder (213), the support (1) comprises a base part (11) and a vertical part (12) which are integrally arranged, a sliding groove (212) for sliding the sliding block (211) is formed in the vertical part (12), the sliding groove (212) is formed in the vertical part (12) along the height direction, and the lifting platform (22) is fixedly connected with one end of the sliding block (211) extending out of the sliding groove (212); the hydraulic cylinder (213) is mounted on the base part (11), and the hydraulic cylinder (213) drives the sliding block (211) to slide along the sliding groove (212).

4. A mobile lifting auxiliary distribution device according to claim 1, characterized in that: the lifting assembly (21) comprises a driving cylinder (214), a rotating shaft (215) and a plurality of groups of adjusting components (216);

The multiple groups of adjusting pieces (216) are distributed along the length direction of the rotating shaft (215), the adjusting pieces (216) comprise a first adjusting rod (2161) and a second adjusting rod (2162), the first adjusting rod (2161) and the second adjusting rod (2162) are rotationally connected through the rotating shaft (215), the first adjusting rod (2161) and the second adjusting rod (2162) are symmetrically distributed about the rotating shaft (215), one end of the first adjusting rod (2161) is rotationally connected with the support (1), the other end of the first adjusting rod slides along the lifting platform (22), the horizontal projection of the first adjusting rod (2161) coincides with the sliding track of the first adjusting rod (2161), one end of the second adjusting rod (2162) is rotationally connected with the lifting platform (22), the other end of the second adjusting rod (2162) slides along the support (1), and the horizontal projection of the second adjusting rod (2162) coincides with the sliding track of the second adjusting rod (2162).

The driving cylinder (214) is installed on the support (1), and the driving cylinder (214) drives the end part of the second adjusting rod (2162) to slide along the support (1).

5. The movable lifting auxiliary distributing device as claimed in claim 4, wherein: the first adjusting rod (2161) is far away from one end of the support (1) and is rotationally connected with a first roller (2163), and a first sliding groove (2165) for sliding of the first roller (2163) is formed in the bottom wall of the lifting platform (22).

6. The movable lifting auxiliary distributing device according to claim 5, wherein: the multiple groups of first rollers (2163) are connected with a synchronous rotating shaft (2167) together, the first rollers (2163) are rotationally connected with the synchronous rotating shaft (2167), a piston rod of the driving cylinder (214) is connected with the synchronous rotating shaft (2167), and the axial direction of the piston rod of the driving cylinder (214) is the same as the length direction of the first sliding groove (2165).

7. The movable lifting auxiliary distributing device according to claim 5, wherein: the second adjusting rod (2162) is far away from one end of the lifting platform (22) and is rotationally connected with a second roller (2164), a second sliding groove (2166) for sliding of the second roller (2164) is formed in the top wall of the support (1), the first sliding groove (2165) is parallel to the length direction of the second sliding groove (2166), and the first sliding groove (2165) is located right above the second sliding groove (2166).

8. A mobile lifting auxiliary distribution device according to claim 2, characterized in that: the discharge pipe (5) is arranged as a steel wire hose.

9. A mobile lifting auxiliary distribution device according to claim 1, characterized in that: at least three universal casters (6) are arranged on the bottom wall of the support (1).